Optimal switching and condition-based maintenance of cold standby systems subject to competitive failure and imperfect switchover

Cold standby redundant structures can improve system reliability and availability but are subjected to internal degradation and external shocks during operation. Thus, the switching process in a standby system is prone to failures. This study investigates the optimal switching and condition-based ma...

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Published in	The Journal of the Operational Research Society Vol. ahead-of-print; no. ahead-of-print; pp. 1 - 18
Main Authors	He, Yugang, Zhang, Xiaohong, Wu, Xinyu, Zhang, Jianfei, Shi, Guannan, Qin, Yankai
Format	Journal Article
Language	English
Published	Taylor & Francis 03.05.2024
Subjects	Cold standby system competing failure process condition-based maintenance imperfect switchover optimal decision
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Abstract	Cold standby redundant structures can improve system reliability and availability but are subjected to internal degradation and external shocks during operation. Thus, the switching process in a standby system is prone to failures. This study investigates the optimal switching and condition-based maintenance (CBM) decision of a two-unit cold standby system subject to mutually dependent competitive failure processes with an imperfect switchover. First, periodic switching and offline CBM policies under imperfect switchover are proposed; second, the reliability models of competitive failure-between soft failure caused by system degradation subject to nonfatal shock and hard failure caused by fatal shock-are established. An iterative model of the system state probability distribution is subsequently derived by analysing the characteristics of state transitions in alternate use and maintenance of the active and standby units. An analytical decision model is also established to minimise the average cost rate in a finite horizon to obtain the optimal switching period and maintenance threshold. Finally, a case study of a coal mine main ventilator system validates the proposed model.
AbstractList	Cold standby redundant structures can improve system reliability and availability but are subjected to internal degradation and external shocks during operation. Thus, the switching process in a standby system is prone to failures. This study investigates the optimal switching and condition-based maintenance (CBM) decision of a two-unit cold standby system subject to mutually dependent competitive failure processes with an imperfect switchover. First, periodic switching and offline CBM policies under imperfect switchover are proposed; second, the reliability models of competitive failure-between soft failure caused by system degradation subject to nonfatal shock and hard failure caused by fatal shock-are established. An iterative model of the system state probability distribution is subsequently derived by analysing the characteristics of state transitions in alternate use and maintenance of the active and standby units. An analytical decision model is also established to minimise the average cost rate in a finite horizon to obtain the optimal switching period and maintenance threshold. Finally, a case study of a coal mine main ventilator system validates the proposed model.
Author	He, Yugang Shi, Guannan Wu, Xinyu Zhang, Xiaohong Zhang, Jianfei Qin, Yankai
Author_xml	– sequence: 1 givenname: Yugang surname: He fullname: He, Yugang organization: Sanji Branch of Sinopec Oilfield Equipment Corporation – sequence: 2 givenname: Xiaohong surname: Zhang fullname: Zhang, Xiaohong organization: Taiyuan University of Science & Technology – sequence: 3 givenname: Xinyu surname: Wu fullname: Wu, Xinyu organization: Taiyuan University of Science & Technology – sequence: 4 givenname: Jianfei surname: Zhang fullname: Zhang, Jianfei organization: Taiyuan University of Science & Technology – sequence: 5 givenname: Guannan surname: Shi fullname: Shi, Guannan organization: Taiyuan University of Science & Technology – sequence: 6 givenname: Yankai surname: Qin fullname: Qin, Yankai organization: Taiyuan Research Institute Co, Ltd., China Coal Technology Engineering Group
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Title	Optimal switching and condition-based maintenance of cold standby systems subject to competitive failure and imperfect switchover
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